E. NOISE AND VIBRATION

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR This section describes existing noise conditions in the Truckee Railyard Master Plan Area, describes criteria for determining the significance of noise impacts, and estimates the likely noise that would result from implementation of the Master Plan. Where appropriate, mitigation measures are recommended to reduce project-related noise impacts to a lessthan-significant level. 1. Setting The setting section begins with an introduction to several key concepts and terms that are used in evaluating noise. It then explains the various agencies that regulate the noise environment in the Town of Truckee and summarizes key standards that are applied to proposed development. This setting section concludes with a description of current noise sources that affect the Railyard Master Plan Area and the noise conditions that are experienced in the vicinity. a. Characteristics of Sound. Noise is generally defined as unwanted sound. Noise consists of any sound that may produce physiological or psychological damage and/or interfere with communication, work, rest, recreation, and sleep. To the human ear, sound has two significant characteristics: pitch and loudness. Pitch is the number of complete vibrations or cycles per second of a wave that results in the range of tone from high to low. Loudness is the strength of a sound that describes a noisy or quiet environment, and it is measured by the amplitude of the sound wave. Loudness is determined by the intensity of the sound waves combined with the reception characteristics of the human ear. Sound intensity refers to how hard the sound wave strikes an object, which in turn produces the sound s effect. This characteristic of sound can be precisely measured with instruments. The analysis of a project defines the noise environment of the Plan Area in terms of sound intensity and its effects on adjacent sensitive land uses. (1) Measurement of Sound. Sound intensity is measured through the A-weighted scale to correct for the relative frequency response of the human ear. That is, an A-weighted noise level de-emphasizes low and very high frequencies of sound similar to the human ear s de-emphasis of these frequencies. Unlike linear units such as inches or pounds, decibels are measured on a logarithmic scale, representing points on a sharply rising curve. Table IV.E-1 contains a list of typical acoustical terms and definitions. Table IV.E-2 shows representative outdoor and indoor noise levels in units of dba. A decibel (db) is a unit of measurement which indicates the relative intensity of a sound. The 0 point on the db scale is based on the lowest sound level that the healthy, unimpaired C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 219

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 Table IV.E-1 Definitions of Acoustical Terms Decibel, db Term Frequency, Hz A-Weighted Sound Level, dba Equivalent Continuous Noise Level, Leq Community Noise Equivalent Level, CNEL Day/Night Noise Level, Ldn Lmax, Lmin Single-Event Noise Exposure Level, SENEL Sound Exposure Level, SEL Ambient Noise Level Definitions A unit of level that denotes the ratio between two quantities proportional to power; the number of decibels is 10 times the logarithm (to the base 10) of this ratio. Of a function periodic in time, the number of times that the quantity repeats itself in one second (i.e., number of cycles per second). The sound level obtained by use of A-weighting. The A-weighting filter deemphasizes the very low and very high frequency components of the sound in a manner similar to the frequency response of the human ear and correlates well with subjective reactions to noise. All sound levels in this report are A- weighted, unless reported otherwise. The level of a steady sound that, in a stated time period and at a stated location, has the same A-weighted sound energy as the time varying sound. The 24-hour A-weighted average sound level from midnight to midnight, obtained after the addition of five decibels to sound levels occurring in the evening from 7:00 p.m. to 10:00 p.m. and after the addition of 10 decibels to sound levels occurring in the night between 10:00 p.m. and 7:00 a.m. The 24-hour A-weighted average sound level from midnight to midnight, obtained after the addition of 10 decibels to sound levels occurring in the night between 10:00 p.m. and 7:00 a.m. The maximum and minimum A-weighted sound levels measured on a sound level meter, during a designated time interval, using fast time averaging. The sound exposure level of a single noise event (such as an aircraft flyover or a truck passby) measured over the time interval between the initial and final times for which the sound level of the single-event exceeds the background noise level. Ten times the common logarithm of the ratio of the sound exposure over a stated time period to the reference sound exposure of 400 micro-pascalsquared seconds. The all encompassing noise associated with a given environment at a specified time, usually a composite of sound from many sources at many directions, near and far; no particular sound is dominant. The noise that intrudes over and above the existing ambient noise at a given location. The relative intrusiveness of a sound depends upon its amplitude, Intrusive duration, frequency, and time of occurrence and tonal or informational content as well as the prevailing ambient noise level. Source: Handbook of Acoustical Measurements and Noise Control, 1991. 220 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR Table IV.E-2 Typical A-Weighted Sound Levels Noise Source A-Weighted Sound Level in Decibels Noise Environments Near Jet Engine 140 Deafening Civil Defense Siren 130 Threshold of pain Hard Rock Band 120 Threshold of feeling Accelerating Motorcycle at a Few Feet Away 110 Very loud Pile Driver; Noisy Urban Street/Heavy City Traffic 100 Very loud Ambulance Siren; Food Blender 95 Very loud Garbage Disposal 90 Very loud Freight Cars; Living Room Music 85 Loud Pneumatic Drill; Vacuum Cleaner 80 Loud Busy Restaurant 75 Moderately loud Near Freeway Auto Traffic 70 Moderately loud Average Office 60 Moderate Suburban Street 55 Moderate Light Traffic; Soft Radio Music in Apartment 50 Quiet Large Transformer 45 Quiet Average Residence Without Stereo Playing 40 Faint Soft Whisper 30 Faint Rustling Leaves 20 Very faint Human Breathing 10 Very faint Source: Compiled by LSA Associates, Inc., 2007. human ear can detect. Changes of 3 db or less are only perceptible in laboratory environments. Audible increases in noise levels generally refer to a change of 3 db or more, as this level has been found to be barely perceptible to the human ear in outdoor environments. Sound levels in db are calculated on a logarithmic basis. An increase of 10 db represents a 10-fold increase in acoustic energy, while 20 db is 100 times more intense, 30 db is 1,000 times more intense. Each 10-dB increase in sound level is perceived as approximately a doubling of loudness. As noise spreads from a source, it loses energy so that the farther away the noise receiver is from the noise source, the lower the perceived noise level would be. Geometric spreading C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 221

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 causes the sound level to attenuate or be reduced, resulting in a 6 db reduction in the noise level for each doubling of distance from a single point source of noise to the noise sensitive receptor of concern. There are many ways to rate noise for various time periods, but an appropriate rating of ambient noise affecting humans also accounts for the annoying effects of sound. Equivalent continuous sound level (Leq) is the total sound energy of time varying noise over a sample time period. The predominant rating scales for human communities in the State of California are the Leq, the community noise equivalent level (CNEL), and the day-night average level (Ldn) based on A-weighted decibels (dba). CNEL is the time varying noise over a 24-hour period, with a 5 dba weighting factor applied to the hourly Leq for noises occurring from 7:00 p.m. to 10:00 p.m. (defined as relaxation hours) and 10 dba weighting factor applied to noise occurring from 10:00 p.m. to 7:00 a.m. (defined as sleeping hours). Ldn is similar to the CNEL scale, but without the adjustment for events occurring during the evening relaxation hours. CNEL and Ldn are within one dba of each other and are normally exchangeable. The noise adjustments are added to the noise events occurring during the more sensitive hours. Typical A-weighted sound levels from various sources are described in Table IV.E-2. Other noise rating scales of importance when assessing the annoyance factor include the maximum noise level (Lmax) and the single-event noise exposure level (SENEL). The Lmax noise level is the highest exponential time averaged sound level that occurs during a stated time period. The noise environments discussed in this analysis are specified in terms of maximum levels denoted by Lmax for short-term noise impacts. Lmax reflects peak operating conditions, and addresses the annoying aspects of intermittent noise. The SENEL, or single-event noise exposure level, is an accumulation of the sound energy over the duration of an event (such as a single aircraft fly-over), where duration is defined as the period from when the A-weighted sound level first exceeds a background level to when the sound level drops back below the background. This is functionally equivalent to the sound exposure Level (SEL). Noise impacts can be described in three categories. The first is audible impacts that refer to increases in noise levels noticeable to humans. Audible increases in noise levels generally refer to a change of 3.0 dba or greater, since, as described earlier, this level has been found to be barely perceptible in exterior environments. The second category, potentially audible, refers to a change in the noise level between 1.0 and 3.0 dba. This range of noise levels has been found to be noticeable only in laboratory environments. The last category is changes in noise level of less than 1.0 dba that are inaudible to the human ear. Only audible changes in existing ambient or background noise levels are considered potentially significant. (2) Physiological Effects of Noise. Physical damage to human hearing begins at prolonged exposure to noise levels higher than 85 dba. Exposure to high noise levels 222 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR affects our entire system, with prolonged noise exposure in excess of 75 dba increasing body tensions, and thereby affecting blood pressure, functions of the ear, and the nervous system. In comparison, extended periods of noise exposure above 90 dba would result in permanent cell damage. When the noise level reaches 120 dba, a tickling sensation occurs in the human ear even with short-term exposure. This level of noise is called the threshold of feeling. Sleep disturbance caused by noise is variable and difficult to characterize because of the difficulty in determining the quality of sleep. In general, the relationship of human response to noise during sleep is determined using the noise metric of the sound exposure level (SEL) and an estimated percent awakening caused by the noise. A guideline for determining sleep disturbance is that awakening may occur for a maximum 10 percent of the population when the indoor sound level exceeds 80 db SEL. This equates to when the outdoor sound level associated with a single-event exceeds 95 db SEL if windows are open or 105 db with windows closed. b. Characteristics of Groundborne Vibration. Vibrating objects in contact with the ground radiate vibration waves through various soil and rock strata to the foundations of nearby buildings. As the vibration propagates from the foundation throughout the remainder of the building, the vibration of floors and walls may cause perceptible vibration from the rattling of windows or a rumbling noise. The rumbling sound caused by the vibration of room surfaces is called groundborne noise. When assessing annoyance from groundborne noise, vibration is typically expressed as root mean square (rms) velocity in units of decibels of 1 micro-inch per second. To distinguish vibration levels from noise levels, the unit is written as VdB. Human perception to vibration starts at levels as low as 67 VdB and sometimes lower. Annoyance due to vibration in residential settings starts at approximately 70 VdB. Groundborne vibration is almost never annoying to people who are outdoors. Although the motion of the ground may be perceived, without the effects associated with the shaking of the building, the motion does not provoke the same adverse human reaction. In extreme cases, excessive groundborne vibration has the potential to cause structural damage to buildings. The threshold for minor cosmetic damage of buildings considered of particular historical significance or that are particularly fragile structures is approximately 96 VdB; the damage threshold for other structures is 100 VdB. 1 Common sources of groundborne vibration include trains and construction activities such as blasting, pile driving and operating heavy earthmoving equipment. Typical vibration source levels from construction equipment are shown in Table IV.E-3. 1 Harris, C.M. 1998. Handbook of Acoustical Measurements and Noise Control. C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 223

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 c. Noise Regulatory Framework. The following section summarizes the regulatory framework related to noise, including federal, State, and Town of Truckee plans, policies and standards. (1) U.S. Environmental Protection Agency (EPA). In 1972 Congress enacted the Noise Control Act. This act authorized the EPA to publish descriptive data on the effects of noise and establish levels of sound requisite to protect the public welfare with an adequate margin of safety. These levels are separated into health (hearing loss levels) and welfare (annoyance levels), as shown in Table IV.E-4. The EPA cautions that these identified levels are not standards because they do not take into account the cost or feasibility of the levels. For protection against hearing loss, 96 percent of the population would be protected if sound levels are less than or equal to an Leq(24) of 70 db. The (24) signifies an Leq duration of 24 hours. The EPA activity and interference guidelines are designed to ensure reliable speech communication at about 5 feet in the outdoor environment. For outdoor and indoor environments, interference with activity and annoyance should not occur if levels are below 55 dba and 45 dba, respectively. The noise effects associated with an outdoor Ldn of 55 db are summarized in Table IV.E- 5. At 55 db Ldn, 95 percent sentence clarity (intelligibility) may be expected at 3.5 meters, and no community reaction. However, 1 percent of the population may complain about noise at this level and 17 percent may indicate annoyance. Table IV.E-3 Typical Vibration Source Levels for Construction Equipment Equipment Pile Driver (impact) Pile Driver (sonic) Approximate VdB at 25 Feet Upper range 112 Typical 104 Upper range 105 Typical 93 Clam shovel drop (slurry wall) 94 Hydromill (slurry wall) In soil 66 In rock 75 Vibratory roller 94 Hoe ram 87 Large bulldozer 87 Caisson drilling 87 Loaded trucks 86 Jackhammer 79 Small bulldozer 58 Source: Federal Transit Administration, 2006. Transit Noise and Vibration Impact Assessment. May. Table IV.E-4 Summary of EPA Noise Levels Effect Level Area Hearing loss Outdoor activity interference and annoyance Indoor activity interference and annoyance Leq(24) < 70 db Ldn < 55 db Leq(24) < 55 db Leq < 45 db Leq(24) < 45 db All areas. Outdoors in residential areas and farms and other outdoor areas where people spend widely varying amounts of time and other places in which quiet is a basis for use. Outdoor areas where people spend limited amounts of time, such as school yards, playgrounds, etc. Indoor residential areas. Other indoor areas with human activities such as schools, etc. Source: U.S. Environmental Protection Agency, 1974. Information on Levels of Environmental Noise Requisite to Protect Public Health and Welfare with an Adequate Margin of Safety. March. 224 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR (2) State of California. The State of California has established regulations that help prevent adverse impacts to occupants of buildings located near noise sources. Referred to as the State Noise Insulation Standard, it requires buildings to meet performance standards through design and/or building materials that would offset any noise source in the vicinity of the receptor. State regulations include requirements for the construction of new hotels, motels, apartment houses, and dwellings other than detached single-family dwellings that are intended to limit the extent of noise transmitted into habitable spaces. These requirements are found in the California Code of Regulations, Title 24 (known as the Building Standards Administrative Code), Part 2 (known as the California Building Code), Appendix Chapters 12 and 12A. For limiting noise transmitted between Table IV.E-5 Summary of Human Effects in Areas Exposed to 55 dba Ldn Type of Effects Speech Indoors Speech Outdoors Average Community Reaction Complaints Annoyance Attitude Towards Area Magnitude of Effect 100 percent sentence intelligibility (average) with a 5 db margin of safety. 100 percent sentence intelligibility (average) at 0.35 meters. 99 percent sentence intelligibility (average) at 1.0 meters. 95 percent sentence intelligibility (average) at 3.5 meters. None evident; 7 db below level of significant complaints and threats of legal action and at least 16 db below vigorous action. 1 percent dependent on attitude and other non-level related factors. 17 percent dependent on attitude and other non-level related factors. Noise essentially the least important of various factors. Source: U.S. Environmental Protection Agency, 1974. Information on Levels of Environmental Noise Requisite to Protect Public Health and Welfare with an Adequate Margin of Safety. March. adjacent dwelling units, the noise insulation standards specify the extent to which walls, doors, and floor ceiling assemblies must block or absorb sound. For limiting noise from exterior noise sources, the noise insulation standards set an interior standard of 45 dba CNEL in any habitable room with all doors and windows closed. In addition, the standards require preparation of an acoustical analysis demonstrating the manner in which dwelling units have been designed to meet this interior standard, where such units are proposed in an area with exterior noise levels greater than 60 dba CNEL. The State has also established land use compatibility guidelines for determining acceptable noise levels for specified land uses. The Town has adopted and modified the State s land use compatibility guidelines, as shown in Table IV.E-6, and as discussed below. (3) Town of Truckee. The Town of Truckee addresses noise in the Noise Element of the General Plan 2 and in Chapter 18.44 of the Municipal Code. 3 The Town s policies address 2 Truckee, Town of, 2007. Town of Truckee 2025 General Plan. 3 Truckee, Town of, 2004. Municipal Code. September. C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 225

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 Table IV.E-6 Land Use Compatibility Guidelines Exterior Noise Exposure (CNEL, db) a Land Use Category 55 60 65 70 75 80 Residential, Mobile Homes Residential in Mixed Use Development Hospitals, Schools, Congregate Care Office, Medical; Light Industrial Hotel; Commercial Neighborhood Parks, RV Parks Other Recreation; Community and Regional Parks a Based on worst-case levels, both existing and 2025. Note: the Truckee-Tahoe Airport has separate guidelines addressing airport noise. NORMALLY ACCEPTABLE Specified land use is compatible, assuming standard construction practices are used. NORMALLY UNACCEPTABLE New land uses should be discouraged, but development may be allowed after a detailed noise analysis is performed, noise reduction and insulation features necessary to reduce exterior noise to normally acceptable levels and interior noise levels as appropriate are included in project design, and the land uses are shown to serve the greater public interests of the citizens of Truckee. CONDITIONALLY ACCEPTABLE New land uses may be allowed if detailed noise analysis is performed and noise reduction and insulation features necessary to reduce exterior noise levels to normally acceptable levels and interior noise levels as appropriate are included in the project design. UNACCEPTABLE New construction or development of these land uses should generally not be permitted because mitigation is usually not feasible. Source: Town of Truckee, 2007. Town of Truckee 2025 General Plan. Figure N-3. 226 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR The noise level requirements for new development. The Town s policies extend the California Noise Insulation Standards for interior noise levels attributable to exterior sources to all proposed new single-family residences. The policies of the Noise Element that are applicable to the proposed Railyard Master Plan are provided below. Policies P1.2: Require new development to mitigate exterior noise to normally acceptable levels in outdoor areas where quiet is a benefit, such as in the backyards of single-family homes. P1.3: Enforce the California Noise Insulation Standards for interior noise levels attributable to exterior sources for all proposed new single- and multi-family residences. P1.7: Reduce potential impacts from goundborne vibration associated with rail operations by requiring that vibration-sensitive buildings (e.g., residences) are sited at least 100 feet from the centerline of the railroad tracks whenever feasible and that development of vibration-sensitive buildings within 100-feet from the centerline of the railroad tracks require a study demonstrating that groundborne vibration issues associated with rail operations have been adequately addressed (i.e., through building siting or construction techniques). The Municipal Code includes the following ordinances governing stationary noise sources that are applicable to the proposed project. 18.44.040 - Exterior Noise Standards: It shall be unlawful for any person, at any location within the Town, to create any noise or to allow the creation of any noise on property leased, occupied, owned, or otherwise controlled by the person which does not comply with the provisions of this Section, unless the provisions of either Sections 18.44.050 (Residential Interior Noise Standards) or 18.44.070 (Exceptions), below have been met. A. Exterior levels: Exterior noise levels, when measured at any receiving church, commercial, hospital, public library, residential or school property, do not conform to the provisions of this Section when they exceed the noise level standards established by Table 3-8 (reference Table IV.E-7). B. Ambient Noise Level Adjustment: In the event the measured ambient noise level exceeds the applicable noise level standard in any category above, the applicable standards shall be adjusted to equal the ambient noise level. For example, if the applicable noise level standard is 60 db(a) and the ambient noise level is 63 db(a), the applicable noise level standard would be adjusted to 63 db(a). In these cases, a use would not exceed the applicable noise level standard if it did not increase the ambient noise level by more than 3.0 db(a) when the ambient noise level is between 60 and 65 db(a) or by more than 1.5 db(a) when the ambient noise level is greater than 65 db (A). F. Commercial/Industrial Exterior Noise Standard: Whenever a new office, commercial, hotel/motel, or light industrial use is proposed on a parcel where the existing ambient noise levels may exceed 70 db(a) CNEL, the land use permit application shall include an acoustical analysis of the affect of noise sources on the use. The acoustical analysis shall identify appropriate mitigation measures that reduce noise levels to acceptable levels. These mitigation measures shall be incorporated into the design, construction, and operation of the use. Office, commercial, hotel/motel, and light industrial uses that cannot mitigate noise C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 227

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 Table IV.E-7 Noise Standard by Receiving Land Use Cumulative Number of Minutes in Any Hour Noise Level Standards, dba Day 7:00 a.m. to 10:00 p.m. Night 10:00 p.m. to 7:00 a.m. Hospital, Library, Religious Institutions, Residential, or School Uses 30 a 55 50 15 60 55 5 65 60 1 70 65 0 75 70 Commercial Uses 30 65 60 15 70 65 5 75 70 1 80 75 0 85 80 a For example, this means the measured noise level may not exceed 55 dba for more than 30 minutes out of any one hour time period. Source: Town of Truckee, 2004. Municipal Code, Chapter 18.44, Table 3-8. September. levels to "Normally Acceptable" levels as defined in Table 6.1 of the General Plan shall not be approved. G. Public/Institutional Exterior Noise Standard: Whenever a hospital, library, school, congregate care, or similar public or institutional use is proposed on a parcel where the existing ambient noise levels may exceed 65 db(a) CNEL, the land use permit application shall include an acoustical analysis of the affect of noise sources on the use. The acoustical analysis shall identify appropriate mitigation measures that reduce noise levels to acceptable levels. These mitigation measures shall be incorporated into the design construction, and operation of the use. Public and institutional uses that cannot mitigate noise levels to "Normally Acceptable" levels as defined in Table 6.1 of the General Plan shall not be approved. H. Sensitive land uses: Whenever a use is proposed on a parcel where the expected noise levels generated by the use, when measured at any receiving church, hospital, public library, residential, or school property, may exceed the noise level standards established by Table 3-8 (reference Table 7), the land use permit application shall include an acoustical analysis of the affect of the noise generated by the use on the sensitive land use property. An acoustical analysis shall also be required when a commercial or industrial loading dock or area is located within 300 feet of a sensitive use. The acoustical analysis shall identify appropriate mitigation measures that reduce exterior noise levels to acceptable levels established by Table 3-8 (reference Table 7). These mitigation measures shall be incorporated into the design, construction, and operation of the use. 228 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR I. Mitigation: Reasonable noise mitigation measures including building setbacks, alternative site design techniques, and alternative building orientation layouts shall be employed in lieu of sound walls to mitigate noise impacts. Sound walls may be used if there are no other reasonable mitigation measures available or all reasonable mitigation measures do not satisfactorily reduce noise levels to acceptable levels. The Municipal Code further includes ordinances governing mobile noise sources that are applicable to the proposed project as outlined below. 18.44.050 - Residential Interior Noise Standards: Single-family and multi-family residential development shall be designed and constructed to comply with the interior noise standards of this Section. A. Interior Noise Standard: Whenever a new single-family or multi-family dwelling unit is proposed on a parcel where the existing exterior ambient noise level may exceed 60 db(a) CNEL, the land use permit application shall include an acoustical analysis showing the dwelling unit has been designed to limit intruding noise to an interior CNEL of 45 db(a), in compliance with California Code of Regulations Title 24, Part 2. B. Residential Development Affected by Aircraft Noise: Land use permit applications for residential structures proposed within the Airport 55 db(a) CNEL contour shall comply with the provisions of Section 18.64.060 (Airport Noise Zones). C. Noise Mitigation Measures: Whenever interior noise levels may exceed 45 db(a) CNEL, residential developments shall incorporate the following noise mitigation measures, where appropriate: - 1. Increase the distance between the noise source and the receiver; - 2. Locate bedrooms on the side of the structure away from major public rights-of-way; and/or - 3. Locate land uses not sensitive to noise (e.g., garages, maintenance facilities, parking lots, utility areas, etc.) between the noise source and the receiver. D. Noise barrier standards: The minimum acceptable surface weight for a noise barrier is four pounds per square foot (equivalent to three-fourths inch plywood). Noise barriers shall interrupt the line-of-sight between the noise source and the receiver. The barrier shall be of a continuous material which is resistant to sound and may including the following: - 1. Earth berm or a combination of earth berm with concrete block; or - 2. Masonry block; or - 3. Precast concrete. 18.44.070 - Exceptions. A. Construction: The provisions of this Chapter shall not apply to noise sources associated with non-single family residential construction, provided the activities do not take place before 7:00 a.m. or after 9:00 p.m. on any day except Sunday, or before 9:00 a.m. or after 6:00 p.m. on Sunday. The review authority may impose further limitations on the hours of construction or other measures to mitigate significant noise impacts on sensitive uses. C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 229

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 G. Public transportation facilities. The provisions of this Section shall not apply to any airports, railroad facilities including but not limited to trains, rolling stock, and railroad equipment, publicly owned roads and right-of-ways, or other similar facilities. d. Existing Noise Environment. The following section describes the existing noise environment and identifies primary noise sources in each of the component areas of the Plan. (1) Existing Conditions. The Plan Area is currently bordered by undeveloped land to the north along Glenshire Drive, a landscaping business to the east, by the Union Pacific Railroad tracks and East River Street to the south, and Donner Pass Road and Brockway Road to the west. Existing land uses within and adjacent to the Plan Area include the Railyard (a railroad operations building, balloon track and storage tracks), eight homes, Tahoe Tree Company, Tahoe-Truckee Lumber Company, a glazier, a card-lock fueling facility, and Trout Creek. An LSA technician conducted 48-hour ambient noise monitoring in the proposed Plan Area from November 16 to November 18, 2006. The purpose of this noise monitoring was to document the existing noise environment and capture the noise levels associated with operations and activities in the Plan vicinity, including roadway and railroad noise sources. Maximum and minimum noise levels were recorded as well as the equivalent continuous noise level measure Leq. The CNEL value was calculated from the hourly Leq values. Table IV.E-8 lists the noise levels measured and calculated during field monitoring. The noise monitoring location is shown in Table IV.E-8 Ambient Noise Monitoring Results, dba Calculated Measured CNEL Leq Lmax Lmin 69 59 106.6 39.4 Source: LSA Associates, Inc., May, 2008. Figure V.E-1 and a chart of the 48-hour measured and calculated noise levels is shown in Figure IV.E-2. This measurement captures both typical weekday and weekend ambient noise conditions in the project vicinity. These noise measurements are used in the following analysis for comparative purposes to the modeling results, to demonstrate correlation between modeled and existing measured conditions, as well as to document existing baseline ambient noise environment conditions. (2) Existing Railroad Noise Sources. The proposed Plan Area would be located adjacent to the Union Pacific Railroad tracks and would include the relocation of the balloon track to the eastern portion of the development area. Railroad activities in this area significantly affect the ambient noise environment. The railroad has freight and passenger 230 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

600 t oo re et St m Jib E. d Roa way Do n n Unio Brockway fic Paci \\Sau1-sr\on-site\2007\1407542 Truckee Railyard Master Plan EIR\Documents\Admin EIR\Figures SOURCE: NEVADA COUNTY GENERAL PLAN MASTER ENVIRONMENTAL ASSESSMENT / PREPARED BY: LSA ASSOCIATES, INC. feet 300 Stree Road t. D S s Rai lroad Stree Truckee River Regional Park r t FIGURE IV.E-1 Truckee Railyard Master Plan EIR 48-Hour Noise Monitoring Location Road E. Rive Dr. 0 iver W. R St r r ne s Pa Drive View noise monitoring location Donn Pass e t ee k Broc er Bri dg 80 d Roa Glenshire River

11:00 Leq(h) Lmax Lmin CNEL 13:00 FIGURE IV.E-2 Truckee Railyard Master Plan EIR 48-Hour Monitoring Noise Levels 120.0 100.0 80.0 dba 60.0 40.0 20.0 0.0 15:00 17:00 19:00 21:00 23:00 1:00 3:00 5:00 7:00 9:00 11:00 13:00 15:00 17:00 19:00 21:00 23:00 1:00 3:00 5:00 7:00 9:00 Time monitoring conducted november 16-18, 2006 SOURCE: LSA ASSOCIATES, INC., 2006. / PREPARED BY: LSA ASSOCIATES, INC. \\Sau1-sr\on-site\2007\1407542 Truckee Railyard Master Plan EIR\Documents\Admin EIR\Figures

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR trains that generate intermittent loud sounds during passbys. Noise generated by an individual train depends on the train type, length, speed, and whether the train uses its warning whistle. Trains are required to sound their warning whistles near at-grade crossings to warn motorists of the on-coming train. There is an existing at-grade crossing at Bridge Street at the western boundary of the Plan Area. According to the Noise Technical Appendix of the Truckee 2025 General Plan EIR, 4 noise levels at a distance of 100 feet from the railroad are approximately 76 dba CNEL. This level includes all railroad-related noise, including train horns. As documented by the long-term ambient noise measurement, the ambient noise level within the Plan Area is 69 dba CNEL, measured at a distance of approximately 200 feet from the railroad centerline. Thus the measured ambient noise level shows strong correlation to the railroad noise levels documented in the Town s General Plan. The documented maximum noise levels within the Plan Area of up to 106.6 dba all reflect railroad activities (including train pass-bys, warning whistles, and idling). (3) Existing Aircraft Noise Sources. The Plan Area is located within the influence area of the Truckee-Tahoe Airport and is subject to the land use regulations of the Airport Land Use Compatibility Plan. Truckee-Tahoe Airport is located approximately 1 mile southeast of the Plan Area. According to the future airport noise contours, Figure 2B of the Truckee Tahoe Airport Land Use Compatibility Plan, 5 the 60 dba CNEL airport noise contour lies to the east of the Plan Area; however, the eastern portion of the Plan Area lies within the 55 dba CNEL airport noise contour. These noise contours represent the points beyond which airport related noise would attenuate to below the indicated noise level. These contours reflect generalized noise projections, and do not take into account site specific topography, natural vegetation, site orientation or other localized factors. (4) Existing Traffic Noise Sources. Vehicular traffic is a major source of ambient noise levels in urban settings. Interstate 80 (I-80) is the major transportation corridor through the Town of Truckee. The Plan Area s northwestern boundary lies within approximately 850 feet of the centerline of I-80. The ambient noise level measurement taken within the Plan Area documented all noise sources within the vicinity, including freeway and railroad noise sources. In addition, all of the recorded maximum noise levels were from railroad noise sources. Noise from traffic sources on I-80 is reduced by distance attenuation and topographical shielding to levels below approximately 65 dba CNEL. Existing baseline traffic noise levels along select roadway segments in the Plan vicinity were modeled using the predicted traffic volumes for the Summer of 2008 without implementation of the proposed project. The results of the traffic noise modeling are shown in Table IV.E-9 below. This table was generated from roadway traffic volumes data, vehicle speeds, and roadway geometry, using the Federal Highways Administration (FHWA) Highway Traffic 4 Truckee, Town of, 2006. Town of Truckee 2025 General Plan EIR, Appendix B. November 16. 5 Truckee Tahoe Airport Land Use Compatibility Plan, December 2, 2004. C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 233

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 Table IV.E-9 Summer (2008) Baseline Traffic Noise Levels Roadway Segment Donner Pass Road - Spring Street to Bridge Street Donner Pass Road - Bridge Street to Church Street Donner Pass Road - Church Street to Keiser Avenue ADT a to 70 CNEL (feet) to 65 CNEL (feet) to 60 CNEL (feet) CNEL (dba) 50 feet from of Outermost Lane 11,900 < 50 b 56 119 64.9 9,200 < 50 < 50 100 63.8 3,500 < 50 < 50 53 59.6 Bridge Street north of Jibboom Street 500 < 50 < 50 < 50 51.2 Bridge Street - Jibboom Street to Church Street 6,100 < 50 < 50 76 62.0 Brockway Road - south of East River Street 16,100 < 50 68 146 66.3 West River Street - west of Brockway Road 8,800 < 50 < 50 97 63.6 East River Street east of Brockway Road 1,200 < 50 < 50 < 50 55.0 a Average Daily Traffic. b Traffic noise within 50 feet of the roadway centerline requires site-specific analysis. Source: LSA Associates Inc., May 2008. Noise Prediction Model. Existing summertime noise levels along these roadway segments (at 50 feet from the centerline of the outermost travel lane) range from 51.2 dba CNEL to 66.3 dba CNEL. 2. Relevant Railyard Draft Master Plan Policies The Draft Master Plan does not include any specific policies related to noise or vibration. 3. Impacts and Mitigation Measures This section analyzes the impacts related to noise and vibration that could result from implementation of the Master Plan. This section begins with the criteria of significance which establish the thresholds for determining whether a project impact is significant. The latter part of this section presents the potential impacts and recommends mitigation measures as appropriate. a. Criteria of Significance. A project would have a significant noise effect if it would substantially increase the ambient noise levels for adjoining areas or conflict with adopted environmental plans and goals of the community in which it is located. The applicable noise standards governing the Plan Area are the State s noise criteria, the Town of Truckee s 234 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR Noise Element of the General Plan, and applicable sections of the Town s Municipal Code. For the purposes of this analysis, a project would result in a significant noise impact if it would: Expose persons to or generate noise levels in excess of normally acceptable standards established in the local General Plan or noise ordinance, or applicable standards of other agencies; Expose persons to or generate excessive groundborne vibration or noise; Result in a substantial permanent, temporary, or periodic increase in ambient noise levels by more than 3 dba in the project vicinity above levels existing without the project if the ambient noise level is between 60 and 65 dba or by more than 1.5 dba if the ambient noise level in the project vicinity is greater than 65 dba; or Expose people residing or working in the Plan Area to excessive aircraft noise levels. The significance criteria identified above are based on Section 15065 and Appendix G of the CEQA Guidelines. b. Less-Than-Significant Noise Impacts. The less-than-significant noise effects associated with the implementation of the Master Plan are described below. (1) Aircraft Noise Sources. Aircraft related noise would be audible and would affect noise sensitive land use development within the Plan Area. However, the Plan Area is located outside of the 60 dba CNEL airport noise contour with the exception of the eastern-most portion of the Plan Area where the balloon track would be located. These noise contours reflect generalized noise projections, and do not take into account site specific topography, natural vegetation, site orientation or other localized factors. However, with implementation of the preferred Plan including the relocating of the Union Pacific Railroad balloon track to the eastern end of the Plan Area, noise sensitive development within the Plan Area would be located further from the 60 dba CNEL airport noise contour. Therefore, due to the distance from and the flight path orientation to the airport, aircraft related noise impacts would be considered a less-than-significant impact on noise sensitive development within the Plan Area. (2) Groundborne Noise and Vibration Impacts. Based on the criteria of significance, a significant impact would occur if the project would expose persons to or generate excessive groundborne vibration or noise levels. Human perception to vibration starts at levels as low as 67 VdB and sometimes lower. Annoyance due to vibration in residential settings starts at approximately 70 VdB. In extreme cases, excessive groundborne vibration has the potential to cause structural damage to buildings. The damage threshold for buildings considered of particular historical significance or that are C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 235

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 particularly fragile structures is approximately 96 VdB; the damage threshold for other structures is 100 VdB. 6 Common sources of ground-borne vibration include construction activities such as blasting, pile driving and operating heavy earthmoving equipment. However, it is anticipated that construction of projects within the Plan will not employ pile driving as a construction method. Typical groundborne vibration levels measured at a distance of 50 feet from heavy construction equipment in full operation, such as bulldozers or other heavy tracked equipment, range up to approximately 94 VdB. This is below the damage threshold for historic or fragile buildings. Furthermore, compliance with all of Truckee s established standard construction noise control measures would reduce construction-related groundborne vibration impacts to a less-than-significant level. Other sources of groundborne vibration include railroad activities. Residential land uses could be located along the north side of the proposed Donner Pass Road Extension, as close as 150 feet from the railroad tracks. Based on the Federal Transit Administration general vibration assessment guidelines, groundborne vibration levels from locomotive powered passenger or freight trains would produce approximately 69.6 VdB at a distance of 150 feet when traveling at 30 mph. This is the predicted exterior vibration level, and does not account for any additional dampening effects of the building structure for inside occupants. This level would therefore be less than the damage threshold for any structure built within the Plan Area and would also be less than the annoyance threshold of 70 VdB for residential land uses. Railroad related groundborne vibration and noise sources would therefore be considered a less-than-significant impact on sensitive land uses within the Plan Area. (3) Traffic Noise Impacts. The FHWA highway traffic noise prediction model (FHWA RD-77-108) was used to evaluate traffic-related noise conditions in the vicinity of the Plan Area. The resultant noise levels were weighed and summed over a 24-hour period in order to determine the CNEL values. The existing and future traffic volumes for roadway segments in the project vicinity were used in the traffic noise impact analysis. Table IV.E-10 shows the Summer 2008 Plus Project Traffic Noise Levels along modeled roadway segments in the Plan Area. Tables IV.E-11 and IV.E-12 show the predicted Summer traffic noise levels for the year 2025 without and with the project, respectively. A significant impact on off-site sensitive receptors would occur if project related traffic noise levels would result in a substantial permanent increase in ambient noise levels of 3 dba or greater if the ambient noise level is between 60 and 65 dba or by more than 1.5 dba if the ambient noise level in the project vicinity is greater than 65 dba. Based on the noise monitoring results, the ambient noise level in the project vicinity is 69 dba CNEL. Modeling results indicate that only one roadway segment would experience a significant increase in 6 Harris, C.M. 1998. Handbook of Acoustical Measurements and Noise Control. 236 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)

NOVEMBER 2008 TRUCKEE RAILYARD DRAFT MASTER PLAN EIR Table IV.E-10 Summer (2008) Plus Project Traffic Noise Levels Roadway Segment Donner Pass Road - Spring Street to Bridge Street Donner Pass Road - Bridge Street to Church Street Donner Pass Road - Church Street to Keiser Avenue Bridge Street - north of Jibboom Street Bridge Street - Jibboom Street to Church Street Brockway Road - south of East River Street West River Street - west of Brockway Road East River Street east of Brockway Road a Average Daily Traffic. ADT a to 70 CNEL (feet) to 65 CNEL (feet) to 60 CNEL (feet) CNEL (dba) 50 feet from of Outermost Lane Increase from Baseline Conditions 13,300 < 50 b 60 128 65.4 0.5 11,100 < 50 53 114 64.6 0.8 4,200 < 50 < 50 60 60.4 0.8 1,200 < 50 < 50 < 50 55.0 3.8 7,700 < 50 < 50 89 63.1 1.1 17,300 < 50 71 153 66.6 0.3 9,800 < 50 < 50 105 64.1 0.5 1,300 < 50 < 50 < 50 55.3 0.3 b Traffic noise within 50 feet of the roadway centerline requires site-specific analysis. Source: LSA Associates Inc., May 2008. Table IV.E-11 Summer (2025) without Project Traffic Noise Levels Roadway Segment ADT to 70 CNEL (feet) to 65 CNEL (feet) to 60 CNEL (feet) CNEL (dba) 50 feet from of Outermost Lane Donner Pass Road - Spring Street to Bridge Street 8,400 < 50 < 50 95 63.4 Donner Pass Road - Bridge Street to Church Street 6,200 < 50 < 50 77 62.1 Donner Pass Road - Church Street to Keiser Avenue 7,800 < 50 < 50 90 63.1 Bridge Street - north of Jibboom Street 9,200 < 50 < 50 100 63.8 Bridge Street - Jibboom Street to Church Street 2,200 < 50 < 50 < 50 57.6 Brockway Road - south of East River Street 21,100 < 50 81 174 67.4 West River Street - west of Brockway Road 11,200 < 50 53 114 64.7 East River Street east of Brockway Road 1,600 < 50 < 50 < 50 56.2 Source: LSA Associates Inc., May 2008. C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008) 237

TRUCKEE RAILYARD DRAFT MASTER PLAN EIR NOVEMBER 2008 Table IV.E-12 Summer (2025) Plus Project Traffic Noise Levels CNEL (dba) 50 feet from of Outermost Lane Increase from Baseline Conditions to to to 70 CNEL 65 CNEL 60 CNEL Roadway Segment ADT (feet) (feet) (feet) Donner Pass Road - Spring Street to Bridge Street 8,300 < 50 < 50 94 63.4 0.0 Donner Pass Road - Bridge Street to Church Street 7,900 < 50 < 50 91 63.2 1.1 Donner Pass Road - Church Street to Keiser Avenue 8,100 < 50 < 50 92 63.3 0.2 Bridge Street - north of Jibboom Street 9,700 < 50 < 50 104 64.1 0.3 Bridge Street - Jibboom Street to Church Street 4,000 < 50 < 50 58 60.2 2.6 Brockway Road - south of East River Street 21,200 < 50 81 175 67.5 0.1 West River Street - west of Brockway Road 10,800 < 50 52 112 64.5-0.2 East River Street east of Brockway Road Source: LSA Associates Inc., May 2008. 1,600 < 50 < 50 < 50 56.2 0.0 project-related traffic noise levels. The roadway segment of Bridge Street north of Jibboom Street would experience an increase in traffic noise levels of up to 3.8 dba under the summer 2008 with project traffic scenario and up to 2.6 under the summer 2025 Plus Project conditions. This is above the Town s threshold of a 1.5 dba increase in ambient noise levels with the project for environments with ambient noise levels in excess of 65 dba CNEL. However, noise levels in this vicinity from traffic on I-80 range from approximately 78 dba to 82 dba CNEL at a distance of 100 feet from the roadway centerline. 7 It should be noted that unlike linear units such as inches or pounds, decibels are measured on a logarithmic scale and are thus added logarithmically. Thus combining noise levels of similar noise sources having a difference in sound pressure levels of 10 or more decibels will not result in any effective increase in the higher noise level. As the projected traffic noise levels on Bridge Street even under summer 2025 Plus Project conditions would only reach 64.1 dba CNEL, this is still more than 10 dba below the I-80 traffic noise levels in this area. Thus, the projected increase in traffic noise levels from traffic on Bridge Street of up to 55 dba CNEL would not result in any permanent increase in ambient noise levels at sensitive receptors along this segment. Therefore, no off-site significant noise impacts would occur from project-related traffic noise levels. 7 Truckee, Town of, 2006. Town of Truckee 2025 General Plan EIR, Appendix B. November 16. 238 C:\JOB\RRM\Truckee\PublicReviewDraft_Oct08\4e-Noisevibration.doc (11/3/2008)